How to achieve fluid switch control with multi connected Solenoid Valve?
The method of controlling the fluid switch through Miniature Parallel Valve is mainly to control the valve's switching state through electromagnetic action. Multiple electromagnetic air valves typically contain an electromagnet and a valve core inside. When the electromagnetic iron is energized, the electromagnetic force will attract the valve core, causing it to move in the direction of the electromagnet, thereby changing the opening and closing state of the valve. When the electromagnet is powered off, the valve core will return to its original position under the action of springs or other reset mechanisms, returning to its original switch state.
The change in the opening and closing status of the valve will directly affect the flow path of the fluid, thereby achieving control over the opening and closing of the fluid. Multiple electromagnetic air valves usually have multiple inlet and outlet ports, which can simultaneously control the paths of multiple fluids and achieve switch control of multiple fluids.
In addition, the multi solenoid valve can also adjust the valve opening by controlling the current and direction of the electromagnet, thereby achieving precise control of fluid flow rate.
Technical Specification
Product Model | DQF3-6A-7 | Voltage | DC 5V |
Pressure | 0.89W | Fraustrated | 6S |
Media | Air | Life cycle | 200000 cycles |
Application | massager | Type | Seven air valve |
What is the difference between a dual Mini Solenoid Air Valve and a six mini solenoid air valve?
The main difference between a 2-way solenoid valve and a 6-way solenoid valve is the number of air paths they can control.
A 2-way 3V Electric Solenoid Air Valve can control two air paths and is usually used in simple pneumatic control scenarios. And the 6-way electromagnetic valve can control six gas paths, which allows it to achieve more control energy in more complex systems.
Therefore, compared to 2-way solenoid valves, 6-way solenoid valves have higher flexibility and a wider range of applications. However, the specific type of electromagnetic valve to choose depends on the actual application requirements and system complexity.
Dimension Drawing
What is the impact of the flow rate of the Multi Solenoid Air Valve on the massager?
The Pneumatic Solenoid Valve valve is an important component of the massage chair, used to control the air pressure and massage function of the massage chair. Multi link electromagnetic valve refers to an electromagnetic valve with multiple channels that can simultaneously control multiple massage areas or functions.
Flow rate refers to the amount of fluid passing through a pipeline or valve per unit of time. In a multi solenoid valve, the flow rate directly affects the performance and massage effect of the massager. Specifically, the size of the flow rate will affect the following aspects of the massager:
1. Massage intensity: The larger the flow rate, the greater the air pressure generated by the massager, and the stronger the massage intensity. Therefore, by adjusting the flow rate of the multi solenoid valve, the massage intensity of the massager can be controlled to meet the needs of different groups of people.
2. Massage speed: The flow rate can also affect the massage speed of the massager. The larger the flow rate, the faster the pressure change generated by the massager, and the faster the massage speed. By adjusting the flow rate of the multi solenoid valve, the massage speed of the massager can be controlled to achieve different massage effects.
3. Massage effect: The flow rate can also affect the massage effect of the massager. If the flow rate is insufficient, the air pressure generated by the massager may not be stable or strong enough, resulting in poor massage effect. Therefore, by adjusting the flow rate of the multi solenoid valve, the massage effect of the massager can be optimized, and the comfort and satisfaction of users can be improved.
DYX Mini Pumps And Solenoid Valves Application
What is the power consumption and energy-saving effect of the multiple mini air control valve?
The specific conclusions regarding the power consumption and energy-saving effect of multi connected electromagnetic valves may vary depending on different product designs and application scenarios. The following are some factors that may affect its power consumption and energy-saving effect: 1. Design efficiency: The design and manufacturing quality of multiple solenoid valves directly affect their operational efficiency. High quality valve design can provide higher flow control and more precise pressure regulation, thereby reducing unnecessary energy consumption.
2. Working mode: The working mode of the massager (such as continuous work, intermittent work, etc.) has a significant impact on the power consumption and energy-saving effect of the multi solenoid valve. If the massager is frequently in continuous operation, the power consumption of the solenoid valve may be relatively high. The intermittent working mode may help reduce energy consumption.
3. Control accuracy: The higher the control accuracy of the multi solenoid valve, the stronger its ability to regulate air pressure, which can more accurately meet the needs of the massager and reduce unnecessary energy consumption.
4. Environmental factors: Environmental factors such as temperature and humidity may affect the performance and power consumption of multiple solenoid valves. For example, a high-temperature environment may cause the internal components of a gas valve to overheat, thereby increasing energy consumption.